A nuclear factor other than Sp1 binds the GC-rich promoter of the gene encoding rat poly(ADP-ribose) polymerase in vitro.

Poly(ADP-ribose) polymerase is a nuclear enzyme that has been shown to exert a key role in many important cellular functions, including DNA repair. Its activity was shown to vary substantially between tissues; the testis and the thymus expressed the highest levels of PARP whereas the liver and the kidney (as well as a few other tissues) expressed only low levels of PARP proteins in vivo. The GC-rich nature of its upstream gene promoter, along with the lack of TATA and CAAT boxes, a feature common to most housekeeping genes, is consistent with a major regulatory function played by the positive transcription factor Sp1 in rat PARP gene transcription. Sp1 was indeed recently shown to interact with five distinct GC or GT boxes present in the rat PARP promoter. However, the observation that PARP activity was lower in rat liver than in other tissues was shown not to be the result of reduced Sp1 activity in liver cells but rather suggests the interplay of nuclear proteins other than Sp1 that are required to restrict PARP expression in this organ and maybe in others (such as the kidney). In this study, we investigated this possibility further by defining whether other nuclear proteins might bind the PARP promoter to modulate its transcription in liver cells. As a result, we identified a nuclear factor distinct from Sp1 that binds the PARP promoter at a site overlapping the F2 Sp1 element previously identified. Our results suggest that this protein likely belongs to the CTF-NF1 family of transcription factors.